نام كتاب :Physics of Gas Lasersنويسنده :W.R. BENNETT, JR.انتشارات : Gordon and Breach -1977تعداد صفحات : 214 صفحهحجم فايل : 2.66 مگابايتفرمت فايل اصلي :Djvu همانطور كه مي دانيد اولين ليزر گازي جهان كه متشكل از گازهاي هليوم و نئون بود، توسط فيزيكدان ايراني علي جوان اختراع و ساخته شد. ليزرهاي گازي كاربردهاي فراواني دارند. در كتاب Physics of Gas Lasers با فيزيك اين ليزرها آشنا خواهيد شد.فصول كتاب:Background Information 5 1.2 Conventional Cavities 6 1.3 Mode Discrimination with Fabry-Perot Cavities 8 1.4 The Fox and Li Modes 9 1.5 Diffraction Integrals Pertinent to the Fox and Li Modes 10 1.6 Form for Rectangular Apertures 12 1.7 Confocal Cavities 21 1.8 Generalized Confocal Resonators and Singular Regions of High Loss 30 1.9 Output Coupling 33 1.10 Mode Selection 34 1.11 Modes for Continuous Apertures 38 1.12 Theory of Cavity Mode-Mixing Effects in Internally-Scanned Lasers 45 1.13 Scanning through Transverse Mode-Locking 45 1.14 Swept Transverse Apertures 47 1.15 The Scanning Problem for Continuous Apertures 572. Hole-Burning and Mode-Pulling Effects in Gas Lasers 62 2.1 Background Considerations 64 2.2 Simple Two-Level Resonance Experiment 65 2.3 Inclusion of Phase Interruption 68 2.4 Gain (or Absorption) Coefficient for Running Waves 74 2.5 Doppler-Broadened Gain and Absorption Coefficients 79 2.6 Exact Gain (or Absorption) Expression for Doppler- Broadened Line 81Note on the Functions Tabulated by Faddeyeva and Terentev 83 2.8 Qualitative Discussion of the Multi-Mode Laser Oscillator 84 2.9 Methods of Studying Multi-Mode Oscillations 87 2.10 Line Narrowing and Spectral Purity 89 2.11 Mode-Pulling Effects 90 2.12 General Laser Frequency Equation 93 2.13 The Kramers-Kronig Relations 94 2.14 Phase Shift for a Lorentzian Line 98 2.15 Homogeneously-Broadened Lasers 99 2.16 Phase Shift for a Gaussian Distribution of Lorentzians 101 2.17 Hole-Burning Effects 105 2.18 Population "Hole" Depths and "Ear" or "Bump" Heights 107 2.19 Exact Expression for a Gain Hole Due to One Running Wave 112 2.20 Gain Hole Depth and Width in the Doppler-Broadened Limit 115 2.21 Accuracy of the Additive Approximation 120 2.22 Single Mode Equations and Hysteresis Effects 125 2.23 The Isotope Effect in Single Mode 129 2.24 Two Modes with the Same Polarization in One Isotope 133 2.25 TV-Modes with the Same Polarization 140 2.26 Comparison with the Lamb Theory 143 2.27 Approximate Semi-Empirical Form for Power Broadening 146 2.28 Collision Broadening 149 2.29 Frequency Stabilization Methods Based on Hole-Burning Effects 162 2.30 Single-Mode with a Saturable Absorber 166 2.31 Frequency Stabilization and Mode Suppression with Saturable Absorbers 171 2.32 Strong-Wave-Weak-Wave Tuning Dips 178 2.33 The Self-Stabilization of Laser Frequencies with Saturable Absorbers 181 2.34 Threshold Hysteresis Effects with Intra-cavity Saturable Absorbers 184 2.35 Hole-Burning Effects in Three-Level Laser Speetroscopy 3
كتاب Physics of Gas Lasers (فيزيك ليزرهاي گازي)
نام كتاب :Physics of Gas Lasersنويسنده :W.R. BENNETT, JR.انتشارات : Gordon and Breach -1977تعداد صفحات : 214 صفحهحجم فايل : 2.66 مگابايتفرمت فايل اصلي :Djvu همانطور كه مي دانيد اولين ليزر گازي جهان كه متشكل از گازهاي هليوم و نئون بود، توسط فيزيكدان ايراني علي جوان اختراع و ساخته شد. ليزرهاي گازي كاربردهاي فراواني دارند. در كتاب Physics of Gas Lasers با فيزيك اين ليزرها آشنا خواهيد شد.فصول كتاب:Background Information 5 1.2 Conventional Cavities 6 1.3 Mode Discrimination with Fabry-Perot Cavities 8 1.4 The Fox and Li Modes 9 1.5 Diffraction Integrals Pertinent to the Fox and Li Modes 10 1.6 Form for Rectangular Apertures 12 1.7 Confocal Cavities 21 1.8 Generalized Confocal Resonators and Singular Regions of High Loss 30 1.9 Output Coupling 33 1.10 Mode Selection 34 1.11 Modes for Continuous Apertures 38 1.12 Theory of Cavity Mode-Mixing Effects in Internally-Scanned Lasers 45 1.13 Scanning through Transverse Mode-Locking 45 1.14 Swept Transverse Apertures 47 1.15 The Scanning Problem for Continuous Apertures 572. Hole-Burning and Mode-Pulling Effects in Gas Lasers 62 2.1 Background Considerations 64 2.2 Simple Two-Level Resonance Experiment 65 2.3 Inclusion of Phase Interruption 68 2.4 Gain (or Absorption) Coefficient for Running Waves 74 2.5 Doppler-Broadened Gain and Absorption Coefficients 79 2.6 Exact Gain (or Absorption) Expression for Doppler- Broadened Line 81Note on the Functions Tabulated by Faddeyeva and Terentev 83 2.8 Qualitative Discussion of the Multi-Mode Laser Oscillator 84 2.9 Methods of Studying Multi-Mode Oscillations 87 2.10 Line Narrowing and Spectral Purity 89 2.11 Mode-Pulling Effects 90 2.12 General Laser Frequency Equation 93 2.13 The Kramers-Kronig Relations 94 2.14 Phase Shift for a Lorentzian Line 98 2.15 Homogeneously-Broadened Lasers 99 2.16 Phase Shift for a Gaussian Distribution of Lorentzians 101 2.17 Hole-Burning Effects 105 2.18 Population "Hole" Depths and "Ear" or "Bump" Heights 107 2.19 Exact Expression for a Gain Hole Due to One Running Wave 112 2.20 Gain Hole Depth and Width in the Doppler-Broadened Limit 115 2.21 Accuracy of the Additive Approximation 120 2.22 Single Mode Equations and Hysteresis Effects 125 2.23 The Isotope Effect in Single Mode 129 2.24 Two Modes with the Same Polarization in One Isotope 133 2.25 TV-Modes with the Same Polarization 140 2.26 Comparison with the Lamb Theory 143 2.27 Approximate Semi-Empirical Form for Power Broadening 146 2.28 Collision Broadening 149 2.29 Frequency Stabilization Methods Based on Hole-Burning Effects 162 2.30 Single-Mode with a Saturable Absorber 166 2.31 Frequency Stabilization and Mode Suppression with Saturable Absorbers 171 2.32 Strong-Wave-Weak-Wave Tuning Dips 178 2.33 The Self-Stabilization of Laser Frequencies with Saturable Absorbers 181 2.34 Threshold Hysteresis Effects with Intra-cavity Saturable Absorbers 184 2.35 Hole-Burning Effects in Three-Level Laser Speetroscopy 3